Method and apparatus for detecting damage to high-pressure tank
First Claim
1. A non-destructive testing method for detecting a sign of failure that occurs when a high-pressure tank for storing a high-pressure fluid is filled with said fluid, said method comprising:
- detecting acoustic emissions generated by a deformation of a material, or by microcracks in a material, or a failure of a material in which said microcracks have grown, with an acoustic emission sensor;
receiving a group of acoustic emission signals which are made up of elastic waves of the same frequency generated continuously for a short period;
determining a hit rate in which said elastic waves are counted as one hit, said hit rate indicating a change in the hit over time; and
measuring a pressure of the high-pressure tank and the acoustic emission signal while the high-pressure tank is filled with said fluid, whereinthe sign of failure is detected by finding the change in the hit rate with respect to an internal pressure of the high-pressure tank corresponding to the hit rate, andthe sign of failure is determined from a value at which the hit rate, which has been increasing in proportion to the pressure of the high-pressure tank when said pressure is less than the maximum usage pressure, does not increase further and reaches a saturation state.
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Accused Products
Abstract
An acoustic emission sensor (AE sensor) is provided for non-destructive detection of a sign of failure that occurs upon filling a high-pressure tank with a fluid. One AE signal detected by the AE sensor is counted as one hit, the hit rate indicating the change in hits over time is found, and a sign of failure is detected from the change in the hit rate. When microcracks develop in the high-pressure tank, and a plurality of these microcracks join together and grow into a single, macroscopic crack, the hit rate of the AE signal no longer increases with respect to an increase in the internal pressure of the high-pressure tank, eventually reaching a saturation state. The hit rate in this saturation state is used to determine that there is a sign of failure.
10 Citations
11 Claims
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1. A non-destructive testing method for detecting a sign of failure that occurs when a high-pressure tank for storing a high-pressure fluid is filled with said fluid, said method comprising:
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detecting acoustic emissions generated by a deformation of a material, or by microcracks in a material, or a failure of a material in which said microcracks have grown, with an acoustic emission sensor; receiving a group of acoustic emission signals which are made up of elastic waves of the same frequency generated continuously for a short period; determining a hit rate in which said elastic waves are counted as one hit, said hit rate indicating a change in the hit over time; and measuring a pressure of the high-pressure tank and the acoustic emission signal while the high-pressure tank is filled with said fluid, wherein the sign of failure is detected by finding the change in the hit rate with respect to an internal pressure of the high-pressure tank corresponding to the hit rate, and the sign of failure is determined from a value at which the hit rate, which has been increasing in proportion to the pressure of the high-pressure tank when said pressure is less than the maximum usage pressure, does not increase further and reaches a saturation state. - View Dependent Claims (2)
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3. An apparatus for detecting damage to a high-pressure tank, comprising:
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an acoustic emission sensor for detecting acoustic emissions generated by the deformation or failure of a material, and detecting said acoustic emissions generated from a crack produced when a high-pressure tank for storing a high-pressure fluid is filled with said fluid; a memory means for storing an output value of said acoustic emission sensor; a calculation means for calculating the change over time in the size and/or shape of said stored output value; a determination means for determining from said change over time whether said output value is a sign of failure; and an output means for outputting said determination result and/or said content of said memory means as output data, wherein said calculation means calculates, from said output value, a hit rate that indicates the number of hits per unit of time of the acoustic emission signal, which is a signal received by said acoustic emission sensor, and calculates the change in the hit rate, and said determination means determines whether or not there is a sign of failure by using the change in the hit rate to find a value at which the hit rate does not increase further and reaches a saturation state. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11)
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Specification